Being designed for multi-tier deployments since the beginning, Ansible is great at doing things on one host on behalf of another, or doing local steps with reference to some remote hosts.
This in particular is very applicable when setting up continuous deployment infrastructure or zero downtime rolling updates, where you might be talking with load balancers or monitoring systems.
Additional features allow for tuning the orders in which things complete, and assigning a batch window size for how many machines to process at once during a rolling update.
This section covers all of these features. For examples of these items in use, `please see the ansible-examples repository <https://github.com/ansible/ansible-examples/>`_. There are quite a few examples of zero-downtime update procedures for different kinds of applications.
You should also consult the :doc:`modules` section, various modules like 'ec2_elb', 'nagios', and 'bigip_pool', and 'netscaler' dovetail neatly with the concepts mentioned here.
You'll also want to read up on :doc:`playbooks_roles`, as the 'pre_task' and 'post_task' concepts are the places where you would typically call these modules.
These commands will run on 127.0.0.1, which is the machine running Ansible. There is also a shorthand syntax that you can use on a per-task basis: 'local_action'. Here is the same playbook as above, but using the shorthand syntax for delegating to 127.0.0.1::
With option ''any_errors_fatal'' any failure on any host in a multi-host play will be treated as fatal and Ansible will exit immediately without waiting for the other hosts.
This option is used when ''serial'' keyword is used. But sometimes ''serial'' execution is unsuitable - number of hosts is unpredictable (because of dynamic inventory), speed is crucial (simultaneous execution is required). But all tasks must be 100% successful to continue playbook execution.
For example there is a service located in many datacenters, there a some load balancers to pass traffic from users to service. There is a deploy playbook to upgrade service deb-packages. Playbook stages:
- disable traffic on load balancers (must be turned off simultaneously)
- gracefully stop service
- upgrade software (this step includes tests and starting service)
- enable traffic on load balancers (should be turned off simultaneously)
Service can't be stopped with "alive" load balancers, they must be disabled, all of them. So second stage can't be played if any server failed on "stage 1".
For datacenter "A" playbook can be written this way::
---
- hosts: load_balancers_dc_a
any_errors_fatal: True
tasks:
- name: 'shutting down datacenter [ A ]'
command: /usr/bin/disable-dc
- hosts: frontends_dc_a
serial: '100%'
max_fail_percentage: 19
tasks:
- name: 'stopping service'
command: /usr/bin/stop-software
- name: 'updating software'
command: /usr/bin/upgrade-software
- hosts: load_balancers_dc_a
tasks:
- name: 'Starting datacenter [ A ]'
command: /usr/bin/enable-dc
In this example Ansible will start software upgrade on frontends only if all load balancers are successfully disabled.